/* * MARS Long Distance Replication Software * * This file is part of MARS project: http://schoebel.github.io/mars/ * * Copyright (C) 2010-2014 Thomas Schoebel-Theuer * Copyright (C) 2011-2014 1&1 Internet AG * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ //#define BRICK_DEBUGGING //#define MARS_DEBUGGING //#define IO_DEBUGGING #include #include #include #include #include #include "strategy.h" #include "mars_proc.h" #include "../lib_mapfree.h" #include "../mars_bio.h" #include "../mars_aio.h" #include "../mars_if.h" #include "../mars_copy.h" #include "../mars_client.h" #include "../mars_server.h" #include "../mars_trans_logger.h" #include "../buildtag.h" const char mars_version_string[] = BUILDTAG " (" BUILDHOST " " BUILDDATE ") " #ifndef CONFIG_MARS_DEBUG "production" #else "DEBUG" #endif #ifdef CONFIG_MARS_DEBUG_MEM " BAD_PERFORMANCE" #endif #ifdef CONFIG_MARS_DEBUG_ORDER0 " EVIL_PERFORMANCE" #endif ; mars_info_fn mars_info = NULL; static int trigger_sysctl_handler( struct ctl_table *table, int write, void __user *buffer, size_t *length, loff_t *ppos) { ssize_t res = 0; size_t len = *length; MARS_DBG("write = %d len = %ld pos = %lld\n", write, len, *ppos); if (!len || *ppos > 0) { goto done; } if (write) { char tmp[8] = {}; int code = 0; res = len; // fake consumption of all data if (len > 7) len = 7; if (!copy_from_user(tmp, buffer, len)) { sscanf(tmp, "%d", &code); if (code > 0) { mars_trigger(); } if (code > 1) { mars_remote_trigger(); } } } else { char *answer = "MARS module not operational\n"; char *tmp = NULL; int mylen; if (mars_info) { answer = "internal error while determining mars_info\n"; tmp = mars_info(); if (tmp) answer = tmp; } mylen = strlen(answer); if (len > mylen) len = mylen; res = len; if (copy_to_user(buffer, answer, len)) { MARS_ERR("write %ld bytes at %p failed\n", len, buffer); res = -EFAULT; } brick_string_free(tmp); } done: MARS_DBG("res = %ld\n", res); *length = res; if (res >= 0) { *ppos += res; return 0; } return res; } static int lamport_sysctl_handler( struct ctl_table *table, int write, void __user *buffer, size_t *length, loff_t *ppos) { ssize_t res = 0; size_t len = *length; MARS_DBG("write = %d len = %ld pos = %lld\n", write, len, *ppos); if (!len || *ppos > 0) { goto done; } if (write) { return -EINVAL; } else { int my_len = 128; char *tmp = brick_string_alloc(my_len); struct timespec know = CURRENT_TIME; struct timespec lnow; get_lamport(&lnow); res = scnprintf(tmp, my_len, "CURRENT_TIME=%ld.%09ld\n" "lamport_now=%ld.%09ld\n", know.tv_sec, know.tv_nsec, lnow.tv_sec, lnow.tv_nsec ); if (copy_to_user(buffer, tmp, res)) { MARS_ERR("write %ld bytes at %p failed\n", res, buffer); res = -EFAULT; } brick_string_free(tmp); } done: MARS_DBG("res = %ld\n", res); *length = res; if (res >= 0) { *ppos += res; return 0; } return res; } #ifdef CONFIG_MARS_LOADAVG_LIMIT int mars_max_loadavg = 0; EXPORT_SYMBOL_GPL(mars_max_loadavg); #endif #ifdef CTL_UNNUMBERED #define _CTL_NAME .ctl_name = CTL_UNNUMBERED, #define _CTL_STRATEGY(handler) .strategy = &handler, #else #define _CTL_NAME /*empty*/ #define _CTL_STRATEGY(handler) /*empty*/ #endif #define VEC_ENTRY(NAME,VAR,MODE,COUNT) \ { \ _CTL_NAME \ .procname = NAME, \ .data = &(VAR), \ .maxlen = sizeof(int) * (COUNT),\ .mode = MODE, \ .proc_handler = &proc_dointvec, \ _CTL_STRATEGY(sysctl_intvec) \ } #define INT_ENTRY(NAME,VAR,MODE) \ VEC_ENTRY(NAME, VAR, MODE, 1) #define LIMITER_ENTRIES(VAR, PREFIX, SUFFIX) \ INT_ENTRY(PREFIX "_total_ops_" SUFFIX, (VAR)->lim_total_ops, 0400), \ INT_ENTRY(PREFIX "_total_sum_" SUFFIX, (VAR)->lim_total_sum, 0400), \ INT_ENTRY(PREFIX "_ratelimit_" SUFFIX, (VAR)->lim_max_rate, 0600), \ INT_ENTRY(PREFIX "_maxdelay_ms", (VAR)->lim_max_delay,0600), \ INT_ENTRY(PREFIX "_minwindow_ms", (VAR)->lim_min_window,0600), \ INT_ENTRY(PREFIX "_maxwindow_ms", (VAR)->lim_max_window,0600), \ INT_ENTRY(PREFIX "_cumul_" SUFFIX, (VAR)->lim_cumul, 0600), \ INT_ENTRY(PREFIX "_count_ops", (VAR)->lim_count, 0600), \ INT_ENTRY(PREFIX "_rate_" SUFFIX, (VAR)->lim_rate, 0400) \ #define THRESHOLD_ENTRIES(VAR, PREFIX) \ INT_ENTRY(PREFIX "_threshold_us", (VAR)->thr_limit, 0600), \ INT_ENTRY(PREFIX "_factor_percent", (VAR)->thr_factor, 0600), \ INT_ENTRY(PREFIX "_plus_us", (VAR)->thr_plus, 0600), \ INT_ENTRY(PREFIX "_max_ms", (VAR)->thr_max, 0600), \ INT_ENTRY(PREFIX "_triggered", (VAR)->thr_triggered,0400), \ INT_ENTRY(PREFIX "_true_hit", (VAR)->thr_true_hit, 0400) \ static struct ctl_table traffic_tuning_table[] = { LIMITER_ENTRIES(&client_limiter, "client_role_traffic", "kb"), LIMITER_ENTRIES(&server_limiter, "server_role_traffic", "kb"), {} }; static struct ctl_table io_tuning_table[] = { LIMITER_ENTRIES(&global_writeback.limiter, "writeback", "kb"), INT_ENTRY("writeback_until_percent", global_writeback.until_percent, 0600), THRESHOLD_ENTRIES(&global_io_threshold, "global_io"), THRESHOLD_ENTRIES(&bio_submit_threshold, "bio_submit"), THRESHOLD_ENTRIES(&bio_io_threshold[0], "bio_io_r"), THRESHOLD_ENTRIES(&bio_io_threshold[1], "bio_io_w"), THRESHOLD_ENTRIES(&aio_submit_threshold, "aio_submit"), THRESHOLD_ENTRIES(&aio_io_threshold[0], "aio_io_r"), THRESHOLD_ENTRIES(&aio_io_threshold[1], "aio_io_w"), THRESHOLD_ENTRIES(&aio_sync_threshold, "aio_sync"), {} }; static struct ctl_table tcp_tuning_table[] = { INT_ENTRY("ip_tos", default_tcp_params.ip_tos, 0600), INT_ENTRY("tcp_window_size", default_tcp_params.tcp_window_size, 0600), INT_ENTRY("tcp_nodelay", default_tcp_params.tcp_nodelay, 0600), INT_ENTRY("tcp_timeout", default_tcp_params.tcp_timeout, 0600), INT_ENTRY("tcp_keepcnt", default_tcp_params.tcp_keepcnt, 0600), INT_ENTRY("tcp_keepintvl", default_tcp_params.tcp_keepintvl, 0600), INT_ENTRY("tcp_keepidle", default_tcp_params.tcp_keepidle, 0600), {} }; static struct ctl_table mars_table[] = { { _CTL_NAME .procname = "version", .data = (char*)mars_version_string, .maxlen = sizeof(mars_version_string), .mode = 0400, .proc_handler = &proc_dostring, }, { _CTL_NAME .procname = "trigger", .mode = 0200, .proc_handler = &trigger_sysctl_handler, }, { _CTL_NAME .procname = "info", .mode = 0400, .proc_handler = &trigger_sysctl_handler, }, { _CTL_NAME .procname = "lamport_clock", .mode = 0400, .proc_handler = &lamport_sysctl_handler, }, INT_ENTRY("show_log_messages", brick_say_logging, 0600), INT_ENTRY("show_debug_messages", brick_say_debug, 0600), INT_ENTRY("show_statistics_global", global_show_statist, 0600), INT_ENTRY("show_statistics_server", server_show_statist, 0600), INT_ENTRY("show_connections", global_show_connections, 0600), INT_ENTRY("aio_sync_mode", aio_sync_mode, 0600), #ifdef CONFIG_MARS_DEBUG INT_ENTRY("debug_crash_mode", mars_crash_mode, 0600), INT_ENTRY("debug_hang_mode", mars_hang_mode, 0600), #endif INT_ENTRY("logger_completion_semantics", trans_logger_completion_semantics, 0600), INT_ENTRY("logger_do_crc", trans_logger_do_crc, 0600), INT_ENTRY("syslog_min_class", brick_say_syslog_min, 0600), INT_ENTRY("syslog_max_class", brick_say_syslog_max, 0600), INT_ENTRY("syslog_flood_class", brick_say_syslog_flood_class, 0600), INT_ENTRY("syslog_flood_limit", brick_say_syslog_flood_limit, 0600), INT_ENTRY("syslog_flood_recovery_s", brick_say_syslog_flood_recovery, 0600), INT_ENTRY("delay_say_on_overflow",delay_say_on_overflow, 0600), INT_ENTRY("mapfree_period_sec", mapfree_period_sec, 0600), INT_ENTRY("mapfree_grace_keep_mb", mapfree_grace_keep_mb, 0600), INT_ENTRY("logger_max_interleave", trans_logger_max_interleave, 0600), INT_ENTRY("logger_resume", trans_logger_resume, 0600), INT_ENTRY("logger_replay_timeout_sec", trans_logger_replay_timeout, 0600), INT_ENTRY("mem_limit_percent", mars_mem_percent, 0600), INT_ENTRY("logger_mem_used_kb", trans_logger_mem_usage, 0400), INT_ENTRY("mem_used_raw_kb", brick_global_block_used,0400), #ifdef CONFIG_MARS_MEM_PREALLOC INT_ENTRY("mem_allow_freelist", brick_allow_freelist, 0600), VEC_ENTRY("mem_freelist_max", brick_mem_freelist_max, 0600, BRICK_MAX_ORDER+1), VEC_ENTRY("mem_alloc_count", brick_mem_alloc_count, 0400, BRICK_MAX_ORDER+1), VEC_ENTRY("mem_alloc_max", brick_mem_alloc_count, 0600, BRICK_MAX_ORDER+1), #endif INT_ENTRY("io_flying_count", mars_global_io_flying, 0400), INT_ENTRY("copy_overlap", mars_copy_overlap, 0600), INT_ENTRY("copy_timeout", mars_copy_timeout, 0600), INT_ENTRY("copy_read_prio", mars_copy_read_prio, 0600), INT_ENTRY("copy_write_prio", mars_copy_write_prio, 0600), INT_ENTRY("copy_read_max_fly", mars_copy_read_max_fly, 0600), INT_ENTRY("copy_write_max_fly", mars_copy_write_max_fly,0600), INT_ENTRY("statusfiles_rollover_sec", mars_rollover_interval, 0600), INT_ENTRY("scan_interval_sec", mars_scan_interval, 0600), INT_ENTRY("propagate_interval_sec", mars_propagate_interval, 0600), INT_ENTRY("sync_flip_interval_sec", mars_sync_flip_interval, 0600), INT_ENTRY("peer_abort", mars_peer_abort, 0600), INT_ENTRY("client_abort", mars_client_abort, 0600), INT_ENTRY("do_fast_fullsync", mars_fast_fullsync, 0600), INT_ENTRY("logrot_auto_gb", global_logrot_auto, 0600), INT_ENTRY("remaining_space_kb", global_remaining_space, 0400), INT_ENTRY("required_total_space_0_gb", global_free_space_0, 0600), INT_ENTRY("required_free_space_1_gb", global_free_space_1, 0600), INT_ENTRY("required_free_space_2_gb", global_free_space_2, 0600), INT_ENTRY("required_free_space_3_gb", global_free_space_3, 0600), INT_ENTRY("required_free_space_4_gb", global_free_space_4, 0600), INT_ENTRY("sync_want", global_sync_want, 0400), INT_ENTRY("sync_nr", global_sync_nr, 0400), INT_ENTRY("sync_limit", global_sync_limit, 0600), INT_ENTRY("handler_dent_limit", dent_limit, 0600), INT_ENTRY("handler_limit", handler_limit, 0600), INT_ENTRY("mars_emergency_mode", mars_emergency_mode, 0600), INT_ENTRY("mars_reset_emergency", mars_reset_emergency, 0600), INT_ENTRY("mars_keep_msg_s", mars_keep_msg, 0600), INT_ENTRY("write_throttle_start_percent", mars_throttle_start, 0600), INT_ENTRY("write_throttle_end_percent", mars_throttle_end, 0600), INT_ENTRY("write_throttle_size_threshold_kb", if_throttle_start_size, 0400), LIMITER_ENTRIES(&if_throttle, "write_throttle", "kb"), #ifdef CONFIG_MARS_LOADAVG_LIMIT INT_ENTRY("loadavg_limit", mars_max_loadavg, 0600), #endif // changing makes no sense because the server will immediately start upon modprobe INT_ENTRY("mars_port", mars_net_default_port, 0400), INT_ENTRY("network_io_timeout", global_net_io_timeout, 0600), { _CTL_NAME .procname = "traffic_tuning", .mode = 0500, .child = traffic_tuning_table, }, { _CTL_NAME .procname = "io_tuning", .mode = 0500, .child = io_tuning_table, }, { _CTL_NAME .procname = "tcp_tuning", .mode = 0500, .child = tcp_tuning_table, }, {} }; static struct ctl_table mars_root_table[] = { { _CTL_NAME .procname = "mars", .mode = 0500, .child = mars_table, }, {} }; ////////////////// module init stuff ///////////////////////// static struct ctl_table_header *header = NULL; int __init init_mars_proc(void) { MARS_INF("init_proc()\n"); header = register_sysctl_table(mars_root_table); return 0; } void exit_mars_proc(void) { MARS_INF("exit_proc()\n"); if (header) { unregister_sysctl_table(header); header = NULL; } }